Modelling smear effect of vertical drains using a diameter reduction method

IF 9.4 1区 工程技术 Q1 ENGINEERING, GEOLOGICAL
Zhichao Shen , Siau Chen Chian , Siew Ann Tan , Chun Fai Leung
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Abstract

Vertical drains are used to accelerate consolidation of clays in ground improvement projects. Smear zones exist around these drains, where permeability is reduced due to soil disturbance caused by the installation process. Hansbo solution is widely used in practice to consider the effects of drain discharge capacity and smear on the consolidation process. In this study, a computationally efficient diameter reduction method (DRM) obtained from the Hansbo solution is proposed to consider the smear effect without the need to model the smear zone physically. Validated by analytical and numerical results, a diameter reduction factor is analytically derived to reduce the diameter of the drain, while achieving similar solutions of pore pressure dissipation profile as the classical full model of the smear zone and drain. With the DRM, the excess pore pressure u obtained from the reduced drain in the original undisturbed soil zone is accurate enough for practical applications in numerical models. Such performance of DRM is independent of soil material property. Results also show equally accurate performance of DRM under conditions of multi-layered soils and coupled radial-vertical groundwater flow.

利用直径缩小法模拟垂直排水沟的涂抹效应
在地面改良工程中,垂直排水沟用于加速粘土的固结。这些排水沟周围存在涂抹区,由于安装过程中对土壤造成的扰动,这些地方的渗透性会降低。在实践中,Hansbo 解决方案被广泛应用于考虑排水沟排水能力和涂抹对固结过程的影响。本研究提出了一种从 Hansbo 解决方案中获得的计算效率高的直径缩小法(DRM),以考虑涂抹效应,而无需对涂抹区进行物理建模。通过分析和数值结果的验证,分析得出了一个直径缩小因子,以减小排水管的直径,同时获得与经典的完整涂抹区和排水管模型相似的孔隙压力耗散曲线解。利用 DRM,在原始未扰动土壤区域从缩小的排水口获得的过剩孔隙压力 u 足够精确,可用于数值模型的实际应用。DRM 的这种性能与土壤材料特性无关。结果还显示,在多层土壤和径向-垂直耦合地下水流条件下,DRM 的性能同样精确。
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来源期刊
Journal of Rock Mechanics and Geotechnical Engineering
Journal of Rock Mechanics and Geotechnical Engineering Earth and Planetary Sciences-Geotechnical Engineering and Engineering Geology
CiteScore
11.60
自引率
6.80%
发文量
227
审稿时长
48 days
期刊介绍: The Journal of Rock Mechanics and Geotechnical Engineering (JRMGE), overseen by the Institute of Rock and Soil Mechanics, Chinese Academy of Sciences, is dedicated to the latest advancements in rock mechanics and geotechnical engineering. It serves as a platform for global scholars to stay updated on developments in various related fields including soil mechanics, foundation engineering, civil engineering, mining engineering, hydraulic engineering, petroleum engineering, and engineering geology. With a focus on fostering international academic exchange, JRMGE acts as a conduit between theoretical advancements and practical applications. Topics covered include new theories, technologies, methods, experiences, in-situ and laboratory tests, developments, case studies, and timely reviews within the realm of rock mechanics and geotechnical engineering.
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